| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Sbal223_1200 |
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| Symbol | |
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| ID | 7087972 |
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| Type | CDS |
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| Is gene spliced | No |
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| Is pseudo gene | No |
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| Organism name | Shewanella baltica OS223 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_011663 |
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| Strand | - |
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| Start bp | 1414080 |
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| End bp | 1417223 |
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| Gene Length | 3144 bp |
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| Protein Length | 1047 aa |
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| Translation table | 11 |
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| GC content | 51% |
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| IMG OID | 643460109 |
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| Product | acriflavin resistance protein |
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| Protein accession | YP_002357136 |
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| Protein GI | 217972385 |
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| COG category | [V] Defense mechanisms |
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| COG ID | [COG0841] Cation/multidrug efflux pump |
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| TIGRFAM ID | [TIGR00915] The (Largely Gram-negative Bacterial) Hydrophobe/Amphiphile Efflux-1 (HAE1) Family |
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Plasmid Coverage information |
| Num covering plasmid clones | 8 |
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| Plasmid unclonability p-value | 0.994972 |
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| Plasmid hitchhiking | No |
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| Plasmid clonability | normal |
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Fosmid Coverage information |
| Num covering fosmid clones | 32 |
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| Fosmid unclonability p-value | 1 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGTGGTTGT CCGATGTTTC GGTTAAACGC CCTGTCGTTG CCATCGTTTT AAGTTTACTG
CTGTGCGTAT TCGGCATAGT CTCCTTCTCT AAATTGTCGA TACGGGAAAT GCCCGACGTT
GAAAGCCCTG TGGTCACCAT TAGCACCAGT TACTCGGGTG CATCGGCGGC CATTATGGAA
AGCCAGATCA CTAAGACCTT AGAAGATGAA CTGACGGGGA TCAGTGGTAT CGACGAAATC
ACGTCGACCA CCCGTAATGG TAGCTCGCGT ATCACAGTGA AATTCCTCCT CGGGTGGAAC
TTAACCGAAG GCGTAAGTGA TGTGCGTGAC GCTGTGGCCC GTGCCCAGCG CAGGCTGCCT
GAAGATGCGA AAGATCCTGT CGTCTCCAAA GACAACGGTT CGGGCGAGCC CTCCGTCTAT
GTGAATTTAA GCTCGAGTGT GATGGACCGC ACTCAATTAA CGGATTACGC CCAGCGCGTG
TTAGAGGACA GGTTTAGCCT TATCAGCGGC GTGAGCTCCA TCAGTATTTC CGGCGGTTTG
TACAAGGTGA TGTACGTCAA GCTCAGACCC GAGCAAATGG CGGGCCGCAA TGTAACAGTC
ACCGACATAA CGAACGCGCT GCGCAAAGAA AACATCGAAA CACCCGGCGG CCAAGTGCGA
AACGACACTA CTGTGATGTC GGTGCGTACC AAACGCTTGT ACTACACGCC AAAGGATTTT
GACTACCTTG TGGTGCGTAC CGCCAGCGAT GGCACGCCTA TCTACTTAAA AGATGTGGCC
GATGTGGCTG TCGGCGCACA AAACGAAAAC TCGACCTTCA AAAGCGACGG TATCGTTAAC
ATCAGTTTAG GCATTATTGC CCAGTCCGAT GCCAACCCAT TGCTCGTTGC CAAAGAAGTG
CACCAAGAAG TCGACCGCGT ACAAGACTTC CTGCCCGAAG GCACTAGCCT AGTGGTCGAC
TTCGACTCTA CCGTATTTAT CGACCGCTCG ATTAACGAGG TCTATAGCAC CCTTTATGTC
ACCGGCGCCT TAGTGGTACT CGTGCTGTAT ATCTTTATCG GACAAGCGCG GGCGACACTC
ATCCCTGCGG TAACGGTTCC GGTATCGTTA ATCTCGGCAT TTATCGCCGC TAACATGCTA
GGTTATTCGA TTAACCTACT GACATTAATG GCGTTAATCC TCTCCATCGG TCTAGTGGTC
GATGATGCGA TTGTGGTGGT CGAGAACATT TTCCACCATA TCGAAAAAGG CGAAGAGCCG
TTACTCGCCG CCTATAAAGG CACCCGCGAA GTAGGCTTTG CCGTTGTCGC CACCACGGCA
GTATTAGTCA TGGTGTTCCT GCCGATTTCC TTTATGGAGG GCATGGTTGG ACTCTTGTTT
ACCGAGTTCT CTGTGATGCT GGCGGTGTCG GTACTGTTTT CCTCCTTAGT GGCACTGACG
CTTACGCCCG TGCTGAGCAG CAAGTTACTT AAAGCCAACG TCAAACCGAA TCGTTTTAAT
CGTTGGGTCG ATCGCGGTTT TGCCCGCATG GAAAGCGTCT ATCGCGTCGC TGTTACTCGG
GCGATTAAAC TTCGTCTACT CGCGCCCTTA GTTATTCTCG CCTGTATCGG CGGCAGTGCT
TGGTTAATGC AACAAGTGCC GTCACAGCTG GCGCCGCAGG AAGACCGCGG TGTGTTGTTC
GCCTTTGTTA AAGGCGCCGA AGGCACCAGT TATAACCGTA TGACAGCCAA CATGGACATA
GTCGAAGACA GACTTATGCC CTTGCTGGGT CAAGGTGTGC TGCGCTCCTT CAGCGTGCAA
GCCCCCGCGT TTGGTGGCCG TGCGGGCGAT CAAACGGGCT TTGTGATCAT GCAGCTTGAA
GATTGGGGCA CACGCACCGA ATCCGCACAA CAAGCGCTTG GCATTATTAG CAAAGCATTG
AAAGACATTC CCGATGTCAT GGTTCGCCCT ATGATGCCAG GCTTTAGGGG TCAATCGAGC
GAACCTGTGC AATTTGTGCT TGGTGGTTCG GACTATGCCG AACTGTTTAA GTGGGCGCAG
GTGCTCAAAG AAGAAGCCAA TGCCAGCCCT ATGATGGAAG GCGCCGATTT AGACTACGCC
GAAACCACGC CTGAGCTTAT CGTTACTGTT GATAAAGAAC GCGCAGCGGA ATTAGGGATC
AGCGTCGATG ACGTCTCGCA AACCTTAGAA GTGATGCTCG GCGGTCGCAC CGAAACCACC
TATGTGGATC GCGGCGAAGA GTACGATGTG TACTTGCGCG GTGATGAAAA CAGTTTTAAC
AACGTTGGCG ATCTTAGCCA AATCTACATG CGTTCCGGTA AAGGCGAATT AGTGACGCTT
GATACCGTGA CCCATATCGA AGAAATTGCT TCGGCACAAA GATTAAGTCA CACCAATAAG
CAAAAATCGA TCACCCTCAA GGCTAACGTC AGTGAAGGTT ACACCTTAGG TGAAGGCTTA
AAGTTTCTTG ATGCTAAAGC CATTGAATTA TTACCTAAGG ATATTTCCAT TGGTTACACC
GGCGAATCCA AAGACTTCAA GGAAAACCAA AGCAGTATCT TCATCGTATT TGGTTTGGCC
TTACTAGTCG CTTACTTAGT GTTAGCCGCG CAGTTTGAAA GTTTTATCAA CCCGTTAGTG
GTGATGTTTA CTGTGCCTAT GGGCGTATTT GGCGGTTTCT TAGGTCTATT GATCACCAGT
CAAGGGATCA ACATCTACAG TCAGATAGGC ATGATCATGT TGATTGGTAT GGTGACCAAA
AACGGTATCC TTATCGTGGA GTTTGCTAAC CAATTGCGTG ACCGCGGCTT TGAACTCGAT
AAAGCCATTA TCGACGCTTC ATCCCGTCGT TTACGGCCAA TCCTAATGAC AGCATTCACC
ACCTTAGTGG GCGCTGTACC GTTAATTTTC TCGACGGGCG CAGGCTCAGA AAGTCGTATC
GCTGTGGGTA CTGTAGTGTT CTTCGGTATG GCATTCGCCA CCTTTGTGAC ACTACTCGTC
ATCCCTGCCA TGTATCGATT AATCTCGGCA GCGACCCATT CACCGGGTTA TGTTGAAGCT
AAGCTTGAAG CGGCAATTAA AGCACAAGAG TTAGCGGCCC AAGAGGCGGC GGCAAAACAA
CAGGAGCTTG CACCTAAAGC CTAA
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| Protein sequence | MWLSDVSVKR PVVAIVLSLL LCVFGIVSFS KLSIREMPDV ESPVVTISTS YSGASAAIME
SQITKTLEDE LTGISGIDEI TSTTRNGSSR ITVKFLLGWN LTEGVSDVRD AVARAQRRLP
EDAKDPVVSK DNGSGEPSVY VNLSSSVMDR TQLTDYAQRV LEDRFSLISG VSSISISGGL
YKVMYVKLRP EQMAGRNVTV TDITNALRKE NIETPGGQVR NDTTVMSVRT KRLYYTPKDF
DYLVVRTASD GTPIYLKDVA DVAVGAQNEN STFKSDGIVN ISLGIIAQSD ANPLLVAKEV
HQEVDRVQDF LPEGTSLVVD FDSTVFIDRS INEVYSTLYV TGALVVLVLY IFIGQARATL
IPAVTVPVSL ISAFIAANML GYSINLLTLM ALILSIGLVV DDAIVVVENI FHHIEKGEEP
LLAAYKGTRE VGFAVVATTA VLVMVFLPIS FMEGMVGLLF TEFSVMLAVS VLFSSLVALT
LTPVLSSKLL KANVKPNRFN RWVDRGFARM ESVYRVAVTR AIKLRLLAPL VILACIGGSA
WLMQQVPSQL APQEDRGVLF AFVKGAEGTS YNRMTANMDI VEDRLMPLLG QGVLRSFSVQ
APAFGGRAGD QTGFVIMQLE DWGTRTESAQ QALGIISKAL KDIPDVMVRP MMPGFRGQSS
EPVQFVLGGS DYAELFKWAQ VLKEEANASP MMEGADLDYA ETTPELIVTV DKERAAELGI
SVDDVSQTLE VMLGGRTETT YVDRGEEYDV YLRGDENSFN NVGDLSQIYM RSGKGELVTL
DTVTHIEEIA SAQRLSHTNK QKSITLKANV SEGYTLGEGL KFLDAKAIEL LPKDISIGYT
GESKDFKENQ SSIFIVFGLA LLVAYLVLAA QFESFINPLV VMFTVPMGVF GGFLGLLITS
QGINIYSQIG MIMLIGMVTK NGILIVEFAN QLRDRGFELD KAIIDASSRR LRPILMTAFT
TLVGAVPLIF STGAGSESRI AVGTVVFFGM AFATFVTLLV IPAMYRLISA ATHSPGYVEA
KLEAAIKAQE LAAQEAAAKQ QELAPKA
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